DE1013926B - Corrosion inhibitor for antifreeze - Google Patents

Description

Corrosion Inhibitor for Antifreeze The invention relates to on corrosion inhibitors for antifreeze: and on those which Contain glycols and preferably ethylene glycol and alkali phosphates.

It is known that antifreezes, polyhydric alcohols, in particular ethylene glycol, for the purpose of preventing corrosion, e.g. B. in car radiators to add corrosion inhibitors. There are many for this purpose inorganic and organic compounds proposed and applied, z. B. sodium nitrite, sodium benzoate, borax, triethanolammonium phosphate, sodium mercaptobenzothiazole, Phenylglycine potassium hydroxide, inter alia, used either alone or with each other will. The previously known inhibitors differ in some cases quite considerably in their effectiveness. In particular, this is very different for the different metallic materials. So we know inhibitors that have a maximum effect Light metals unfold (e.g. in cylinder heads), while others are more suitable for non-ferrous metals (e.g. in radiator construction), others again for cast iron (e.g. in the engine block). The difficulty therefore lies in finding an inhibitor that is as good as possible Great protective effect for the combinations that often occur in practice made of iron, light and non-ferrous metals.

Surprisingly, it has been found that excellent good to look at all metallic materials can be achieved when working as Corrosion inhibitor used for antifreeze mixtures other than glycols and preferably ethylene glycol primary and secondary sodium phosphate in one contain such proportions that the inhibited glycol neutral to weak alkaline, namely up to the transition point of phenolphthalein (8.8) and preferably has a pH between 7.0 to 7.6. A 30% aqueous solution of the antifreeze should not show a pH value lower than 6.5.

The proportions of the components can largely be within of the neutral to weakly alkaline range and have, for example for every 100 kg of ethylene glycol the following composition: 1. 400 g K H2 P 04 2. 400 g K H2 P 04 475 g Na2H P 04 1200 g Na2 H P 04 41 water 81 water (indicator: (indicator Rosolic acid on red; 7.6) phenolphthalein on pink; 8.8) These surprising results are intended by the following examples in comparison with the antifreeze agent according to the invention be clarified.

Corrosion inhibitor solutions were used as comparison solutions 1: It was a 35% aqueous mono- and dipotassium phosphate solution, as for example is described in German Patent 611991, prepares.

Inhibitor solution 2: This solution consists of an aqueous glycol solution with 1 part by volume of ethylene glycol and 2 parts by volume of water with an addition of 5.1 percent by weight sodium hexametaphosphate (such an antifreeze is described, for example, in German patent 871661).

Inhibitor solution 3: A corrosion inhibitor according to the invention was made from a solution of 400 g K H2 P 04 and 475 g Nag H P 04 in 41 water, which was mixed with 100 kg of ethylene glycol (Example 2).

These three corrosion inhibitors were subjected to the following test methods: The 120 hour corrosion test described in the manual of the Society of Automotive Engineers (SAE), 1954, p.321, was used. The results of this experiment are compiled in Table I below, which contains the weight change in mg / cm2 for various metallic materials. Table I. Weight loss in mg / cm2 after 120 hours at 99 ° Material solution 1 'solution 2 J solution 3 (German (German (according to Patent specification Patent specification present 611991) 871661) invention I. Tinplate ...... 7.12 0.80 0 Sheet steel ...... 9.1 0.23 0.084 Cast iron ....... 6.95 2.85 0.086 Brass ........ 0.29 0.13 0.024 Copper. . . . . . . . . 0.19 0.15 0 Zinc injection molding ... 5.12 5.36 0.025 For comparison, samples made of the same metallic materials were then examined for 28 days using the flow method at 60 °. The results, which are summarized in Table II, confirm those of the SAE method. - - - Table- II Weight loss in mg / cm2 after 28 days at 60 ° Material solution 1 solution 2 I solution 3 (German (German (according to Patent specification Patent specification present - 611991) - 871661) Invention) Tinplate ...... 11.2 0.12 0.07 Sheet steel ...... 24.0 1.06 0.08 Cast iron ..... 10.8 0.89 0.67 Brass ....... 0.43 0 0.32 Copper. . . . . . . . . 0.33 0 0.66 Zinc injection molding ... 15.6 4.25 0.89 Finally, for comparison, the antifreeze agent inhibited according to the invention with the above-mentioned composition was tested for 3385 hours in the cooling system of a truck at an average operating temperature of about 90 ° and the corrosion effects compared with the corrosion that a commercially available inhibited antifreeze agent, namely one from 1 Part by volume of ethylene glycol and 2 parts by volume of water existing antifreeze, which contains 2.5 percent by weight borax, after an operating time of 1585 hours. While when using borax as an inhibitor, the metals of the cooling system show significant corrosion attacks or strong rust deposits, the corrosion attacks or rust deposits observed when using an inhibitor of the present application are significantly lower. The same observation can be made with test pieces of light metal alloys hung in the cooling system.

The excellent corrosion-inhibiting properties of the inhibitor according to the invention also result from the values in Tables III and IV below, from which it can be seen that the inhibitor according to the invention is suitable for most of the metals used. Table III Weight change in mg / cm ' Fluorescent iron (electrolytically tinned). 0 carbon steel ................ -0.005 Aluminum alloy (A1Cu 4 Mg) .. -0.0005 Cast iron. . . . . . . . . . . . . . . . . . . . . . . --0.034 Brass ........................ 0 Copper ......................... -0.005 Zinc die-cast alloy. . . . . . . . . . . -0.03 The antifreeze agent is tested by diluting it with tap water (1: 1). If one compares this with the known inhibitors, it is found that the weight losses of the various metals are significantly greater - sometimes more than 10 or 20 times - than when the inhibitor according to the invention is used. The 120 hour corrosion test described in the manual of the Society of Automative Engineers (SAE), 1954, p. 321, is used for assessment.

Even after a test method which, in contrast to the so-called SAE test, carries out the corrosion test over a period of 40 days, excellent results were obtained with the inhibitor according to the invention (see Table IV). Table IV Change in weight in mg / dm2 # Day a) ib) Steel ............... - 1.59 -7.59 Brass . . . . . . . . . . . . . -0.01 +0.06 Copper. . . . . . . . . . . . . . -0.01 +0.10 Aluminum. . . . . . . . . . +0.05 +0.56 Zinc. . . . . . . . . . . . . . . . +0.24 -8.83 Cast iron. . . . . . . . . . . . -3.32 -6.61 Silicon. . . . . . . . . . . . . +0.77 +2.69 Column a) shows the changes in weight of a 30 percent by volume solution of the inhibited glycol in distilled water, column b) shows the changes that occur when using distilled water alone.

Antifoam agents can optionally be added to the inhibited antifreeze agent Means, e.g. B. Silicones, vegetable and animal oils and emulsifiable oils for Increase the effect can be added.

Claims (4)

PATENT CLAIMS: 1. Corrosion inhibitor for antifreeze, which contain glycols, preferably ethylene glycols, using alkali salts of phosphoric acid, characterized in that a mixture of primary and secondary Sodium phosphate is present in such a proportion that it is inhibited Glycol is neutral to slightly alkaline. 2. Corrosion inhibitor for antifreeze according to claim 1, characterized in that the between the neutral point and the Umschlagsptuikt of phenolphthalein lying pH value preferably a value between 7.0 and 7.6. 3. Corrosion inhibitor according to claim 1 and 2, characterized in that that it consists of a solution of 400 g of K H, P O, and 1200 g of Na, H P O, in 81 water 100 kg of ethylene glycol. 4. Corrosion inhibitor according to claim 1 to 3, characterized in that it contains an addition of anti-foaming agents and / or emulsifiable oils. Considered publications: German Patent Nos. 611991, 641 156, 743283, 817 871, 871661.